I was just reading this fantastic article -

https://www.promisejs.org/generators/

and it clearly highlights this function, which is a helper function for handling generator functions:

function async(makeGenerator){
  return function () {
    var generator = makeGenerator.apply(this, arguments);

    function handle(result){
      // result => { done: [Boolean], value: [Object] }
      if (result.done) return Promise.resolve(result.value);

      return Promise.resolve(result.value).then(function (res){
        return handle(generator.next(res));
      }, function (err){
        return handle(generator.throw(err));
      });
    }

    try {
      return handle(generator.next());
    } catch (ex) {
      return Promise.reject(ex);
    }
  }
}

which I hypothesize is more or less the way the async keyword is implemented with async/await. So the question is, if that is the case, then what the heck is the difference between the await keyword and the yield keyword? Does await always turn something into a promise, whereas yield makes no such guarantee? That is my best guess!

You can also see how async/await is similar to yield with generators in this article where he describes the 'spawn' function: https://jakearchibald.com/2014/es7-async-functions/

  • 1
    async function -> a coroutine. generator -> iterator which uses a coroutine to manage its inner iterations mechanism. await suspends a coroutine, while yield return a result from a coroutine which some generator uses – David Haim Mar 24 '16 at 9:24
  • 1
    async/await is not part of ES7. Please read tag description. – Felix Kling Mar 24 '16 at 13:53
  • @david haim, yeah but async await is built on top of generators so they are not distinct – Alexander Mills Mar 24 '16 at 18:14

yield can be considered to be the building block of await. yield takes the value it's given and passes it to the caller. The caller can then do whatever it wishes with that value (1). Later the caller may give a value back to the generator (via generator.next()) which becomes the result of the yield expression (2), or an error that will appear to be thrown by the yield expression (3).

async-await can be considered to use yield. At (1) the caller (i.e. the async-await driver - similar to the function you posted) will wrap the value in a promise using a similar algorithm to new Promise(r => r(value) (note, not Promise.resolve, but that's not a big deal). It then waits for the promise to resolve. If it fulfills, it passes the fulfilled value back at (2). If it rejects, it throws the rejection reason as an error at (3).

So the utility of async-await is this machinery that uses yield to unwrap the yielded value as a promise and pass its resolved value back, repeating until the function returns its final value.

up vote 28 down vote accepted

Well, it turns out that there is a very close relationship between async/await and generators. And I believe async/await will always be built on generators. If you look at the way Babel transpiles async/await:

Babel takes this:

this.it('is a test', async function () {

    const foo = await 3;
    const bar = await new Promise(function (resolve) {
        resolve('7');
    });
    const baz = bar * foo;
    console.log(baz);

});

and turns it into this

function _asyncToGenerator(fn) {
    return function () {
        var gen = fn.apply(this, arguments);
        return new Promise(function (resolve, reject) {
            function step(key, arg) {
                try {
                    var info = gen[key](arg);
                    var value = info.value;
                } catch (error) {
                    reject(error);
                    return;
                }
                if (info.done) {
                    resolve(value);
                } else {
                    return Promise.resolve(value).then(function (value) {
                        return step("next", value);
                    }, function (err) {
                        return step("throw", err);
                    });
                }
            }

            return step("next");
        });
    };
}


this.it('is a test', _asyncToGenerator(function* () {   // << now it's a generator

    const foo = yield 3;    // << now it's yield not await
    const bar = yield new Promise(function (resolve) {
        resolve('7');
    });
    const baz = bar * foo;
    console.log(baz);
}));

you do the math.

This makes it look like the async keyword is just that wrapper function, but if that's the case then await just gets turned into yield, there will probably be a bit more to the picture later on when they become native.

  • NodeJS has native async/await for a while now, without generators: codeforgeek.com/2017/02/… – Bram Apr 8 at 18:03
  • 1
    @Bram native implementation absolutely uses generators under the hood, same thing, just abstracted away. – Alexander Mills Apr 29 at 19:58
  • I don't think so. Async/await is natively implemented in the V8 engine. Generators where a ES6 feature, async/await is ES7. It was part of the 5.5 release of the V8 engine (which is used in Node): v8project.blogspot.nl/2016/10/v8-release-55.html. It is possible to transpile ES7 async/await into ES6 generators, but with new versions of NodeJS this is no longer needed, and the performance of async/await even seems to be better then generators: medium.com/@markherhold/… – Bram May 1 at 11:02
  • @Bergi please solve this argument lol – Alexander Mills May 1 at 16:40
  • async/await uses generators to do its thing – Alexander Mills Jul 12 at 18:45

what the heck is the difference between the await keyword and the yield keyword?

The await keyword is only to be used in async functions, while the yield keyword is only to be used in generator function*s. And those are obviously different as well - the one returns promises, the other returns generators.

Does await always turn something into a promise, whereas yield makes no such guarantee?

Yes, await will call Promise.resolve on the awaited value.

yield just yields the value outside of the generator.

  • A minor nit, but as I mentioned in my answer the spec doesn't use Promise.resolve (it used to earlier), it uses PromiseCapability::resolve which is more accurately represented by the Promise constructor. – Arnavion Mar 24 '16 at 11:29
  • @Arnavion: Promise.resolve uses exactly the same new PromiseCapability(%Promise%) that the async/await spec uses directly, I just thought Promise.resolve is better to understand. – Bergi Mar 24 '16 at 11:40
  • 1
    Promise.resolve has an extra "IsPromise == true? then return same value" short-circuit that async does not have. That is, await p where p is a promise will return a new promise that resolves to p, whereas Promise.resolve(p) would return p. – Arnavion Mar 24 '16 at 20:42
  • Oh I missed that - I thought this was only in Promise.cast and was deprecated for consistency reasons. But it doesn't matter, we don't really see that promise anyway. – Bergi Mar 24 '16 at 22:56
  • 1
    var r = await p; console.log(r); should be transformed to something like: p.then(console.log);, while p might be created as: var p = new Promise(resolve => setTimeout(resolve, 1000, 42));, so it is wrong to say "await calls Promise.resolve", it is some other code totally far away from the 'await' expression that invokes Promise.resolve, so the transformed await expression, i.e. Promise.then(console.log) would be invoked and print out 42. – Dejavu Jan 12 at 6:49

Try this test programs which I used to understand await/async with promises

Program #1 : without promises it doesn't run in sequence

function functionA() {
    console.log('functionA called');
    setTimeout(function() {
        console.log('functionA timeout called');
        return 10;
    }, 15000);

}

function functionB(valueA) {
    console.log('functionB called');
    setTimeout(function() {
        console.log('functionB timeout called = ' + valueA);
        return 20 + valueA;
    }, 10000);
}

function functionC(valueA, valueB) {

    console.log('functionC called');
    setTimeout(function() {
        console.log('functionC timeout called = ' + valueA);
        return valueA + valueB;
    }, 10000);

}

async function executeAsyncTask() {
    const valueA = await functionA();
    const valueB = await functionB(valueA);
    return functionC(valueA, valueB);
}
console.log('program started');
executeAsyncTask().then(function(response) {
    console.log('response called = ' + response);
});
console.log('program ended');

program 2 : with promises :

function functionA() {
    return new Promise((resolve, reject) => {
        console.log('functionA called');
        setTimeout(function() {
            console.log('functionA timeout called');
            // return 10;
            return resolve(10);
        }, 15000);
    });   
}

function functionB(valueA) {
    return new Promise((resolve, reject) => {
        console.log('functionB called');
        setTimeout(function() {
            console.log('functionB timeout called = ' + valueA);
            return resolve(20 + valueA);
        }, 10000);

    });
}

function functionC(valueA, valueB) {
    return new Promise((resolve, reject) => {
        console.log('functionC called');
        setTimeout(function() {
            console.log('functionC timeout called = ' + valueA);
            return resolve(valueA + valueB);
        }, 10000);

    });
}

async function executeAsyncTask() {
    const valueA = await functionA();
    const valueB = await functionB(valueA);
    return functionC(valueA, valueB);
}
console.log('program started');
executeAsyncTask().then(function(response) {
    console.log('response called = ' + response);
});
console.log('program ended');

tldr;

Use Async/Await 99% of the time over Generators. Why?

  1. Async/Await directly replaces the most common work-flow of promise chains allowing code to be declared as if it was synchronous, dramatically simplifying it.

  2. Generators abstract the use case where you would call a series of async operations that depend on each other and eventually will be in a "done" state. The most simple example would be paging through results that eventually return the last set but you would only call a page as needed, not immediately in succession.

  3. Async/Await is actually an abstraction built on top of Generators to make working with promises easier.

See very in-depth Explanation of Async/Await vs. Generators

In many ways, generators are a superset of async/await. Right now async/await has cleaner stack traces than co, the most popular async/await-like generator based lib. You can implement your own flavor of async/await using generators and add new features, like built-in support for yield on non-promises or building it on RxJS observables.

So, in short, generators give you more flexibility and generator-based libs generally have more features. But async/await is a core part of the language, it's standardized and won't change under you, and you don't need a library to use it. I have a blog post with more details on the difference between async/await and generators.

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